With the rising interest in service meshes, many application developments and delivery pros’ first encounter with one leaves them wondering how they differ from API gateways.
Are service meshes their product category? Or are they part of broader API management?
These questions miss the point: Service meshes need to fade away into the background of development platforms. To understand why one must first understand the quiet revolution happening with Kubernetes.
Put plainly, Kubernetes is becoming a distributed operating system to support distributed applications.
Service Mesh == Dynamic Linker for cloud
A service mesh is the modern-day dynamic linker for distributed computing. With traditional programming, including another module involves importing a library into your integrated development environment (IDE). Upon deployment, the operating system’s dynamic linker connects your program with the library at runtime. It also handles discovering the library, validating security to invoke the library, and establishing a connection.
With a microservices architecture, your “library” is a network hop to another microservice. Finding that “library” and establishing a secure connection is the job of the service mesh.
Just as it makes no sense for development and operations teams to think about a dynamic linker, much less care and feed for one, modern-day teams should not have to care and feed for a complicated service mesh.
The situation we see today of service meshes being the first-class infrastructure is an important step forward, but they have a problem: They are too visible.
Installing a typical service mesh requires several manual steps. Infrastructure teams must coordinate with AppDev teams to ensure that connection configurations are compatible with what was coded. Many service meshes are too complicated to stand up at scale and require solid operational support talent to configure and keep them healthy.
You may even need to understand the service mesh’s internal architecture to debug it when things go wrong. It must change.
It’s all about the developer experience
Imagine a developer experience in which importing a JAR or DLL library required all the installation, configuration, and operational support a service mesh entails. What if it also required understanding the internal architecture of the operating system’s dynamic linker to diagnose runtime problems? I hear you responding, “That’d be insane!”
Contrast this to the real experience of linking to a library: You reference the library from your IDE, build, and deploy. Done. That should be the gold standard for service mesh.
Obviously, that is unattainable. A network call is more complicated than an in-memory library link. The point is that a service mesh should become as invisible as possible to the DevOps team. It should strive toward that gold standard, even if it can never quite get there 100%.
Imagine a cloud-native development environment that enables developers to link microservices at build time. It then pushes the configurations of these connections into Kubernetes as part of the build process. Kubernetes then takes care of the rest, with the service mesh just being an implementation detail of your Kubernetes distribution that you rarely have to think about.
Vendors that believe service mesh is merely about connectivity miss the point. The fundamental value of microservices (and cloud in general) is greater agility and scalability from smaller deployable units running on serverless. Yet, the programming constructs we’ve needed for decades haven’t gone away.
Many advancements in cloud technology are filling in the constructs we lost when migrating from monoliths to cloud-native. Vendors that make the microservice developer’s experience more on par with traditional software development, without sacrificing the benefits of microservices, will have the winning products.
In sum, the service mesh should be a platform feature, not a product category — as far out of sight and mind from the DevOps team as possible.
The original article by David Mooter, senior analyst at Forrester, is here.
The views and opinions expressed in this article are those of the author and do not necessarily reflect those of CDOTrends. Image credit: iStockphoto/kertu_ee